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Cosmic ‘barcode’ from distant galaxy confirms Nature’s constancy

Date:
November 15, 2016
Source:
Swinburne University of Technology
Summary:
Astronomers have precisely measured the strength of a fundamental force of Nature in a galaxy seen eight billion years in the past. Researchers have confirmed that electromagnetism in a distant galaxy has the same strength as here on Earth.
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Astronomers have precisely measured the strength of a fundamental force of Nature in a galaxy seen eight billion years in the past.

Researchers from Swinburne University of Technology and the University of Cambridge have confirmed that electromagnetism in a distant galaxy has the same strength as here on Earth.

They observed a quasar -- a supermassive black hole with enormously bright surroundings -- located behind the galaxy. On its journey toward Earth, some of the quasar's light was absorbed by gas in the galaxy eight billion years ago, casting shadows at very specific colours.

"The pattern of colours tells us how strong electromagnetism is in this galaxy, and because the quasar is one of the brightest ones known, we were able to make the most precise measurement so far," says lead author of the study, Swinburne PhD candidate Srđan Kotuš.

"We found electromagnetism in this galaxy was the same as here on Earth within just one part per million -- about the width of a human hair compared to the size of a sports stadium."

Electromagnetism is one of the four known fundamental forces of Nature.

"Electromagnetism determines almost everything about our everyday world, like the light we receive from the Sun, how we see that light, how sound travels through the air, the size of atoms and how they interact," says Swinburne's Professor Michael Murphy, co-author of the new work.

"But no one knows why electromagnetism has the strength it has and whether it should be constant, or vary, and why."

Most previous attempts to measure electromagnetism have been limited by instruments called spectrographs -- the 'light rulers' used to measure the pattern of shadows in the quasar's rainbow of colours. The researchers used spectrographs at the European Southern Observatory's Very Large Telescope (VLT) and 3.6-m Telescope in Chile to make their observations.

"The VLT's spectrograph is a little inaccurate: it's a high-quality ruler for measuring light, but the numbers on that ruler are a little offset. So, to make the best measurement, we also used the 3.6-m Telescope's spectrograph to provide very accurate numbers," says Mr Kotuš.

"For me, finding that electromagnetism is constant over more than half the Universe's age just deepens the mystery -- why is it that way? We still don't know," Professor Murphy says.

"It's remarkable that distant galaxies provide such a precise probe of such a fundamental question. With even larger telescopes now being built, we'll be able to test it even better in the near future."

The research has been published in the Monthly Notices of the Royal Astronomical Society.

Full animation: https://youtu.be/8ZSXWpwab7g.


Story Source:

Materials provided by Swinburne University of Technology. Note: Content may be edited for style and length.


Journal Reference:

  1. S. M. KotuS̭, M. T. Murphy, R. F. Carswell. High-precision limit on variation in the fine-structure constant from a single quasar absorption system. Monthly Notices of the Royal Astronomical Society, 2016; stw2543 DOI: 10.1093/mnras/stw2543

Cite This Page:

Swinburne University of Technology. "Cosmic ‘barcode’ from distant galaxy confirms Nature’s constancy." ScienceDaily. ScienceDaily, 15 November 2016. <www.sciencedaily.com/releases/2016/11/161115175127.htm>.
Swinburne University of Technology. (2016, November 15). Cosmic ‘barcode’ from distant galaxy confirms Nature’s constancy. ScienceDaily. Retrieved December 21, 2024 from www.sciencedaily.com/releases/2016/11/161115175127.htm
Swinburne University of Technology. "Cosmic ‘barcode’ from distant galaxy confirms Nature’s constancy." ScienceDaily. www.sciencedaily.com/releases/2016/11/161115175127.htm (accessed December 21, 2024).

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